Cathode for an electron tube
    1.
    发明授权
    Cathode for an electron tube 失效
    阴极用于电子管

    公开(公告)号:US6091189A

    公开(公告)日:2000-07-18

    申请号:US771916

    申请日:1996-12-23

    IPC分类号: H01J1/142 H01J1/26 H01K1/04

    CPC分类号: H01J1/142 H01J1/26

    摘要: A cathode for an electron tube including a base body having nickel as a major component and including at least one kind of reducing agents, a metal member in a layer-like shape, which has as a major component a metal provided with a reducing power equivalent to or smaller than a reducing power of the at least one kind of reducing agents included in the base body and larger than a reducing power of nickel and which is formed on faces of the base body, an electron emitting substance layer formed by depositing alkaline earth metal oxides including barium on the metal member, wherein the metal member is formed on the faces of the base body such that the base body is restrained from deforming by thermal stresses of intermetallic compounds formed at portions of the base body bounded with the metal member.

    摘要翻译: 一种电子管的阴极,其包括以镍为主要成分的基体,并且包括至少一种还原剂,层状形式的金属构件,其具有作为主要组分的金属,该金属具有还原能当量 至少包含在所述基体中的所述至少一种还原剂的还原力大于或小于所述基体的表面上形成的还原能力的电子发射物质层,所述电子发射物质层通过沉积碱土 在金属构件上的包含钡的金属氧化物,其中金属构件形成在基体的表面上,使得通过在与金属构件界定的基体的部分处形成的金属间化合物的热应力来限制基体变形。

    Cathode-ray tube having oxide cathode and method for producing the same
    2.
    发明授权
    Cathode-ray tube having oxide cathode and method for producing the same 失效
    具有氧化物阴极的阴极射线管及其制造方法

    公开(公告)号:US06376976B1

    公开(公告)日:2002-04-23

    申请号:US09462071

    申请日:2000-01-05

    IPC分类号: H01J114

    摘要: It is an object to obtain a cathode ray tube having a high resolution without decreasing electron emission property. Surface of a cathode was leveled by heating during forming a vacuum in order to oxidize a carbonate salt to an oxide as an electron emissive material, after applying a paste for printing on a metal substrate by screen printing, drying the same, and incorporating an oxide cathode in a cathode ray tube, the paste having a mixture of needle-like particles of the first group and bulk particles of the second group incorporated as an alkaline earth metal carbonate forming an electron emissive material layer.

    摘要翻译: 本发明的目的是获得具有高分辨率而不降低电子发射性能的阴极射线管。阴极表面在形成真空期间通过加热而平整,以便在施加之后将碳酸盐氧化为氧化物作为电子发射材料 用于通过丝网印刷在金属基材上印刷的浆料,将其干燥,并将氧化物阴极并入阴极射线管中,将具有第一组的针状颗粒和第二组的主体颗粒的混合物的浆料作为 形成电子发射材料层的碱土金属碳酸盐。

    Cathode for electronic tube
    3.
    发明授权
    Cathode for electronic tube 失效
    电子管阴极

    公开(公告)号:US6054802A

    公开(公告)日:2000-04-25

    申请号:US29032

    申请日:1998-02-20

    IPC分类号: H01J1/142 H01J1/26 H01J1/00

    CPC分类号: H01J1/142 H01J1/26

    摘要: Problems with a conventional cathode for electronic tubes arose because metals composing the substrate were subjected to heat deformation, resulting in a relatively lage drift of cutoff voltage. The present invention diminishes the heat deformation of the substrate to obtain a cathode with a small drift of cutoff voltage. Particularly, heat expansion coefficients can be made uniform while metals in the metal layer are prevented from diffusing into the substrate. This is done by incorporating the same metals present in the metal layer into the metals composing the substrate, thereby supressing deformation of the substrate.

    摘要翻译: PCT No.PCT / JP97 / 01976 Sec。 371日期:1998年2月20日 102(e)1998年2月20日PCT 1997年6月10日PCT公布。 公开号WO97 / 49108 PCT。 日期1997年12月24日由于构成基板的金属受到热变形,导致电子管的常规阴极的问题,导致截止电压相对较大的漂移。 本发明减小了基板的热变形以获得具有小的截止电压漂移的阴极。 特别地,可以使热膨胀系数均匀,防止金属层中的金属扩散到基板中。 这通过将金属层中存在的相同金属掺入构成基板的金属中,从而抑制基板的变形。

    Electron tube cathode
    4.
    发明授权
    Electron tube cathode 失效
    电子管阴极

    公开(公告)号:US6124666A

    公开(公告)日:2000-09-26

    申请号:US979566

    申请日:1997-11-26

    CPC分类号: H01J1/142 H01J1/26

    摘要: An electron tube cathode comprises a base (1) formed mainly of nickel, an alloy layer (4) disposed on the base (1) and including nickel and tungsten having a grain size smaller than that of the base, and an electron emissive material layer (5) deposited on the alloy layer, and including an oxide (6) of an alkaline-earth metal containing at least barium, and a rare earth metal oxide (7) of 0.01 to 25 weight percent and containing at least one of scandium oxide and yttrium oxide. The cathode has a life characteristics improved compared with the prior art, even if operated with a current density of 3 A/cm.sup.2 or more.

    摘要翻译: 电子管阴极包括主要由镍形成的基体(1),设置在基底(1)上的合金层(4),并且包括具有小于基底的晶粒尺寸的镍和钨以及电子发射材料层 (5)沉积在合金层上,并且包含至少含有钡的碱土金属的氧化物(6)和0.01至25重量%的稀土金属氧化物(7),并且含有至少一种氧化钪 和氧化钇。 即使以3A / cm 2以上的电流密度进行操作,阴极与现有技术相比寿命特性得到改善。

    Cathode for electron tube
    5.
    发明授权

    公开(公告)号:US06545397B2

    公开(公告)日:2003-04-08

    申请号:US09755121

    申请日:2001-01-08

    IPC分类号: H01J114

    CPC分类号: H01J1/26 H01J1/142

    摘要: A cathode for an electron tube provided with a base containing at least one kind of reducing agent, a metal layer whose main component is tungsten formed on the base, and an electron emission material layer whose main component is an alkaline-earth metal oxide including barium formed thereon, deformation of the base in operation is controlled by composing the metal layer with a porous metal layer and limiting the thickness and the porosity of the metal layer. As a result, it is possible to achieve a cathode for an electron tube applicable to a cathode-ray tube for a display in which the cutoff voltage is liable to change.

    ELECTRICAL DISCHARGE SURFACE TREATMENT METHOD
    6.
    发明申请
    ELECTRICAL DISCHARGE SURFACE TREATMENT METHOD 审中-公开
    电放电表面处理方法

    公开(公告)号:US20130209705A1

    公开(公告)日:2013-08-15

    申请号:US13140604

    申请日:2010-09-16

    IPC分类号: H01B13/00

    CPC分类号: H01B13/00 C23C26/00 C23C26/02

    摘要: There is an electrical discharge surface treatment method of forming a surface layer on a work piece surface by making pulsed electrical discharge repeatedly occur between a work piece (2) and an electrode (1) for electrical discharge surface treatment, for which a compact formed by powder obtained by mixing 20 wt % or more of silicon with powder of a hard material or a solid body of silicon is used, so that the electrode material is moved to the work piece (2), including: a processing time decision step of observing an electrical discharge treatment surface formed on the work piece surface by the electrical discharge and deciding the electrical discharge surface treatment end time in a process where surface roughness formed by the electrical discharge on the electrical discharge treatment surface acquired from the observation result is increased and is then decreased. Electrical discharge surface treatment between the electrode and the work piece is executed for only the processing time set in the processing time decision step.

    摘要翻译: 存在通过在工件(2)和用于放电表面处理的电极(1)之间重复发生脉冲放电而在工件表面上形成表面层的放电表面处理方法,由此形成由 使用通过将20重量%以上的硅与硬质材料或硅固体粉末混合而获得的粉末,使得电极材料移动到工件(2),包括:处理时间决定步骤,观察 通过放电在工件表面上形成的放电处理表面,并且在从观察结果获得的放电处理表面上的放电形成的表面粗糙度增加的过程中决定放电表面处理结束时间,并且是 然后减少。 仅在处理时间决定步骤中设定的处理时间执行电极与工件之间的放电表面处理。

    ELECTRICAL DISCHARGE SURFACE TREATMENT METHOD
    7.
    发明申请
    ELECTRICAL DISCHARGE SURFACE TREATMENT METHOD 有权
    电放电表面处理方法

    公开(公告)号:US20110135845A1

    公开(公告)日:2011-06-09

    申请号:US13057715

    申请日:2008-08-06

    IPC分类号: H01T14/00

    摘要: An electrical discharge surface treatment method for forming a coating film by generating a pulsed electrical discharge between an electrode and a workpiece in working fluid or gas using a green compact obtained by molding metal powder or metal alloy powder or a molded body obtained by heating the green compact as the electrode, and by melting an electrode material by an energy of the pulsed electrical discharge, forming a coating of the electrode material or a coating of a material obtained by a reaction of the electrode material by the energy of the pulsed electrical discharge on a surface of the workpiece, the electrical discharge surface treatment method includes generating the pulsed electrical discharge by mixing together two or more types of pulsed electrical discharges having different energies.

    摘要翻译: 一种放电表面处理方法,用于通过使用通过模制金属粉末或金属合金粉末或通过加热绿色而获得的成型体的生坯在工作流体或气体中产生电极和工件之间的脉冲放电来形成涂膜 作为电极致密,并且通过脉冲放电的能量熔化电极材料,形成电极材料的涂层或通过电极材料通过脉冲放电的能量的反应获得的材料的涂层 工件的表面,放电表面处理方法包括通过将具有不同能量的两种或更多种类型的脉冲放电混合在一起来产生脉冲放电。

    Plastic magnet precursor, production method for the same, and plastic magnet
    8.
    发明申请
    Plastic magnet precursor, production method for the same, and plastic magnet 有权
    塑料磁体前体,制作方法相同,塑料磁铁

    公开(公告)号:US20060226393A1

    公开(公告)日:2006-10-12

    申请号:US10766961

    申请日:2004-01-30

    IPC分类号: H01F1/00

    摘要: The present invention provides a plastic magnet precursor which can be supplied to a step of molding a plastic magnet at a constant composition without requiring a kneading step in which a resin is melted and sheared. Through injection molding using the precursor, a plastic magnet having little deterioration of magnetic properties and a small variation in quality is obtained. The plastic magnet precursor according to the present invention includes an Nd—Fe—B isotropic magnet powder (1) and a ferrite anisotropic magnet powder subjected to a coating treatment with a titanate coupling agent (4), and a thermoplastic resin powder (2) is adhered around the magnet powder (1) to form a powder shape.

    摘要翻译: 本发明提供一种塑料磁体前体,其可以被供给到以恒定组成成型塑料磁体的步骤,而不需要将树脂熔融和剪切的捏合步骤。 通过使用前体的注射成型,可以获得磁性能变差小,质量变化小的塑料磁体。 根据本发明的塑料磁体前体包括Nd-Fe-B各向同性磁体粉末(1)和用钛酸酯偶联剂(4)进行涂覆处理的铁氧体各向异性磁体粉末和热塑性树脂粉末(2) 粘附在磁体粉末(1)周围以形成粉末形状。

    ELECTRODE FOR ELECTRIC-DISCHARGE SURFACE TREATMENT AND ELECTRIC-DISCHARGE SURFACE TREATMENT COATING
    9.
    发明申请
    ELECTRODE FOR ELECTRIC-DISCHARGE SURFACE TREATMENT AND ELECTRIC-DISCHARGE SURFACE TREATMENT COATING 审中-公开
    电放电表面处理电极和放电表面处理涂层

    公开(公告)号:US20130069015A1

    公开(公告)日:2013-03-21

    申请号:US13699794

    申请日:2010-05-26

    IPC分类号: H01B1/04 C22C38/02

    CPC分类号: H01B1/04 C22C38/02 C23C26/00

    摘要: In order to establish an electric-discharge surface treatment capable of forming a smooth high-hardness coating, in the electric-discharge surface treatment in which pulsed electric discharge is generated between the electrode and a base material in a machining fluid or in the air by using a green compact, which is formed by compressing powder of an electrode material, as an electrode, and by using energy of the electric discharge, a coating including the electrode material or a reaction product of the electrode material reacted by the electric discharge energy is formed on a surface of the base material, wherein, as the powder of the electrode material, a mixed powder formed by mixing 10 to 75 vol % of Si powder to powder of a hard material is used.

    摘要翻译: 为了建立能够形成平滑的高硬度涂层的放电表面处理,在电极和机械加工液中的空气中的空气中的电极和基材之间产生脉冲放电的放电表面处理中, 使用通过压缩电极材料的粉末作为电极而形成的生坯,并且通过使用放电能量,包括电极材料的涂层或电极材料与放电能反应的反应产物的涂层是 形成在基材的表面上,其中,作为电极材料的粉末,使用通过将10〜75体积%的Si粉末与硬质材料的粉末混合而形成的混合粉末。

    Coating film and coating-film forming method
    10.
    发明授权
    Coating film and coating-film forming method 有权
    涂膜和涂膜成型方法

    公开(公告)号:US08287968B2

    公开(公告)日:2012-10-16

    申请号:US12296179

    申请日:2006-04-05

    IPC分类号: H01T14/00 B32B15/00

    摘要: To form a coating film having an excellent wear-resistant property in a temperature range from low temperature to high temperature a coating-film forming method includes a metal-powder producing step of producing a metal powder containing an element exhibiting a lubricating property when oxidized; an oxidizing step of oxidizing the metal powder so that an amount of oxygen contained in the metal powder is within 6 weight % to 14 weight %; and a coating-film forming step of forming a coating film on a material subject to a treatment, the coating film having such a composition that an area where an oxygen content is 3 weight % or less and an area where an oxygen content is 8 weight % or more are distributed in a unit area of the coating film when the metal powder is in a melted state or a semi-melted state, and an oxygen content of the entire coating film after the metal powder is melted or semi-melted being within 5 weight % to 9 weight %.

    摘要翻译: 为了形成在低温至高温的温度范围内具有优异的耐磨性的涂膜,涂膜形成方法包括:金属粉末的制造步骤,其制造含有氧化时具有润滑性的元素的金属粉末; 氧化金属粉末的氧化步骤,使得金属粉末中所含的氧含量在6重量%至14重量%之间; 以及在经受处理的材料上形成涂膜的涂膜形成步骤,所述涂膜具有氧含量为3重量%以下的面积和氧含量为8重量的区域的组成 当金属粉末处于熔融状态或半熔化状态时,涂膜的单位面积中分布有%以上,并且金属粉末后的整个涂膜的氧含量在内部熔融或半熔融 5重量%至9重量%。